CN102923617B - Lifting device - Google Patents

Abstract

The invention discloses a lifting device, which is arranged on a base frame and is used for lifting a controlled object. The lifting device comprises a control mechanism, a guide mechanism and a bearing mechanism, wherein the control mechanism is used for controlling the bearing mechanism to lift between a first position and a second position; the guide mechanism is used for guiding the bearing mechanism to lift between the first position and the second position; the bearing mechanism (1) is used for bearing the controlled object; the first position is a hidden position for containing the controlled object in the base frame, and the second position is an opening position for exposing the controlled object outside the base frame. Through the technical scheme, a storage battery is controlled to lift through controlling the lifting device of the storage battery provided by the invention, so that the storage battery is descended to a relatively opened position from a hidden space, thus the storage battery is replaced or maintained conveniently, and the sequential problem of the storage battery in the hidden space is solved. The lifting device of the storage battery, provided by the invention, has the advantages of compact structure and no waste of space resources.

Description

Jacking system

Technical field

The present invention relates to a kind of jacking system, particularly, relate to a kind of jacking system for automotive battery.

Background technology

In a lot of mechanism or equipment, due to the restriction in space, all parts cannot be arranged on open place, and usually need some preassembling to be arranged on relatively hidden place, will cause another one problem like this, namely these parts are not easy to dismounting and maintenance.This problem causes usually occurring when the anxiety of space at the many and finite volume of parts, such as automobile etc., get more and more owing to automobile chassis frame needing the parts installed, therefore the parts usually safeguarded and change much are not needed to be arranged on the concealed location being not easy to dismounting, the especially storage battery of automobile with regard to needs.

At present, the position of storage battery on car load of general vehicle is changeless, is usually arranged on outside chassis side rail and the underfloor in loading space or objective railway carriage or compartment.For the ease of the replacing of storage battery, in actual design is arranged, storage battery is arranged on the position of opposing open usually.For shipping and passenger vehicle, the vehicle of especially medium-sized or above volume, because the space of car load is nervous, the parts that vehicle frame is installed are a lot, usually need storage battery to be arranged into relatively hidden space, but storage battery will be made like this to be blocked by vehicle frame, vehicle body, loading space or objective railway carriage or compartment etc., finally cause storage battery dismounting difficulty, be not easy to change, more make the maintainability of vehicle be deteriorated.

Summary of the invention

The object of this invention is to provide a kind of storage battery jacking system, this storage battery jacking system makes storage battery liftably be arranged on vehicle frame.

To achieve these goals, the invention provides a kind of jacking system, this jacking system is arranged on pedestal, and for being elevated controlled object, wherein, this jacking system comprises steering unit, guiding mechanism and load carrier,

Described steering unit is used for controlling described load carrier and is elevated between the first position and the second position;

Described guiding mechanism is elevated between described primary importance and the second place for guiding described load carrier;

Described load carrier is for carrying described controlled object;

Wherein, described primary importance is the concealed location that described controlled object is accommodated in pedestal, and the described second place is the release position that described controlled object is exposed to outside pedestal.

Preferably, described guiding mechanism comprises the first guide be connected with described pedestal, this first guide has the first guide groove, described load carrier has first slide block that can slide in described first guide groove, described load carrier is elevated between described primary importance and the second place by the slip of described first slide block relative to described first guide groove.

Preferably, described first guide groove vertically extends.

Preferably, described first guide is two, lays respectively at the both sides of described load carrier.

Preferably, described guiding mechanism also comprises the second guide be connected with described steering unit, this second guide has the second guide groove, described load carrier has second slide block that can slide in described second guide groove, described load carrier is elevated between described primary importance and the second place by the slip of described second slide block relative to described second guide groove.

Preferably, described second guide is two, lays respectively at the both sides of described load carrier.

Preferably, described steering unit is rocking arm, and this rocking arm is rotatably fixed on described pedestal.

Preferably, described steering unit comprises two rocking arms be rotatably fixed on described pedestal, and described two rocking arms are arranged at the both sides of described load carrier respectively and are connected with two described second guides.

Preferably, described two rocking arms are linked together by connecting rod, and described rocking arm to be fixed on described pedestal by described connecting rod and to rotate around described connecting rod.

Preferably, described second guide groove is form of straight lines, and the extended line of the line of centers of described second guide groove is by the rotation axis of described rocking arm.

Preferably, at least one in described two rocking arms has handle.

Preferably, described load carrier can be fixed on described primary importance.

Preferably, described second guide removably can be connected with described pedestal in described primary importance.

Preferably, described jacking system is the storage battery jacking system for automobile, and described pedestal is vehicle frame or vehicle body, and described controlled object is storage battery.

Pass through technique scheme, the lifting of storage battery can be controlled by handling storage battery jacking system of the present invention, thus make storage battery can drop to the position of opposing open from concealed space, thus be convenient to replacing or the maintenance of storage battery, solve the contingency question that storage battery is arranged in concealed space.And storage battery lifting device structure of the present invention is compact, can not wasting space resource.

Other features and advantages of the present invention are described in detail in detailed description of the invention part subsequently.

Accompanying drawing explanation

Accompanying drawing is used to provide a further understanding of the present invention, and forms a part for specification sheets, is used from explanation the present invention, but is not construed as limiting the invention with detailed description of the invention one below.In the accompanying drawings:

Fig. 1 is the load carrier of jacking system of the present invention transparent view when being in primary importance (raised configuration) and the second place (falling state), wherein, primary importance (raised configuration) is indicated by the solid line, and the second place (falling state) is represented by dashed line;

Fig. 2 is the decomposition view of jacking system of the present invention;

Fig. 3 is the schematic diagram that the load carrier of jacking system of the present invention is in primary importance (raised configuration);

Fig. 4 is the schematic diagram that the load carrier of jacking system of the present invention is in the second place (falling state).

Description of reference numerals

1 load carrier 11 first slide block

12 second slide block 2 first guides

21 first guide groove 3 second guides

31 second guide groove 4 rocking arms

5 connecting rod 6 handles

Detailed description of the invention

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail.Should be understood that, detailed description of the invention described herein, only for instruction and explanation of the present invention, is not limited to the present invention.

In the present invention, when not doing contrary explanation, the noun of locality such as " upper and lower, left and right " of use typically refers to the direction as shown in Figure of description.

The invention provides a kind of jacking system, this jacking system is arranged on pedestal, and for being elevated controlled object, wherein, this jacking system comprises steering unit, guiding mechanism and load carrier,

Described steering unit is used for controlling described load carrier and is elevated between the first position and the second position;

Described guiding mechanism is elevated between described primary importance and the second place for guiding described load carrier;

Described load carrier 1 is for carrying described controlled object;

Wherein, described primary importance is the concealed location that described controlled object is accommodated in vehicle frame, and the described second place is the release position that described controlled object is exposed to outside vehicle frame.

Technique scheme provide a kind of can the jacking system of movement between hidden primary importance and the open second place, this jacking system is arranged on pedestal, by controlling steering unit, load carrier 1 is directed to mechanism and guides between the first position and the second position and be elevated.

As shown in Figure 1, when this jacking system is in raised configuration, load carrier is accommodated in the concealed location in pedestal, and now load carrier is positioned at primary importance; When this jacking system be in fall state time, load carrier is exposed to the release position outside pedestal, and now load carrier is positioned at the second place.The load carrier that Fig. 3 and Fig. 4 is respectively jacking system of the present invention is in the schematic diagram of primary importance and the second place.

Under the thought of technique scheme, the multiple technologies means that the present invention can adopt those skilled in the art to commonly use.This steering unit can adopt the handle of machinery, lever or other structure causes manually to provide powered, also can adopt motor or hydraulic actuating cylinder etc. to provide power to carry out descending operation; This guiding mechanism can adopt simple stay cord or guide rail for guiding load carrier, or adopts the mechanism of other transmissions and guiding to realize; The mechanism of this load carrier should adapt with controlled object, and such as formation tabular or net structure carry controlled object and carry out dipping and heaving.

Such as, steering unit adopts handle or handle, guiding mechanism adopts stay cord, load carrier is drawn by this stay cord, handle can be pulled in artificially, thus drive stay cord to draw load carrier lifting, or by the propulsion source such as motor or hydraulic actuating cylinder, control propulsion source by handle or handle to open, thus drive stay cord traction load carrier.Or means conventional for this areas such as the guiding mechanism guide rail of above-mentioned stay cord form are replaced.

Certain the present invention is not limited to above-mentioned embodiment, and the technological means of the thought of any technical scheme according to the invention is all within protection scope of the present invention.Below the preferred embodiment of the present invention is introduced in detail.

Preferably, described guiding mechanism comprises the first guide 2 be connected with described pedestal, this first guide 2 has the first guide groove 21, described load carrier 1 has first slide block 11 that can slide in described first guide groove 21, described load carrier 1 is elevated between described primary importance and the second place by the slip of described first slide block 11 relative to described first guide groove 21.

As shown in Figure 2, in the preferred embodiment, guiding mechanism comprises first guide 2 that to be connected with pedestal, and this first guide 2 adopts the form of guide groove to match with the first slide block 11 on load carrier 1, thus realizes the guiding to load carrier 1.Wherein, this first guide 2 and the first guide groove 21 can adopt the form of any suitable.The form utilizing guide groove and slide block to coordinate realizes the lifting of load carrier comparatively stable, and load carrier can be fixed in guide groove, therefore can not the skew of occurrence positions in lifting process, thus prevents controlled object due to unstable and be damaged.

Preferably, described first guide groove 21 vertically extends.Like this, load carrier is just along the first guide 2 in the vertical direction lifting, thus control the path of motion of load carrier, when the particular/special requirement in space makes load carrier not move in the other direction, this preferred implementation can be good at meeting this particular/special requirement, or when the particular/special requirement in space makes load carrier can only move along oblique line, first guide groove 21 of the present invention can also extend along corresponding direction, or be other curve forms, to make load carrier according to the orbiting motion preset.These embodiments all belong to the scope of thought of the present invention protection.

Preferably, described first guide 2 is two, lays respectively at the both sides of described load carrier 1.In order to more stably lead to load carrier 1, described first guide 2 is at least one, and in the preferred embodiment, this first guide 2 is for laying respectively at two of load carrier 1 both sides.

Preferably, described guiding mechanism also comprises the second guide 3 be connected with described steering unit, this second guide 3 has the second guide groove 31, described load carrier 1 has second slide block 12 that can slide in described second guide groove 31, described load carrier 1 is elevated between described primary importance and the second place by the slip of described second slide block 12 relative to described second guide groove 31.

As shown in Figure 2, in another preferred implementation of the present invention, guiding mechanism also comprises the second guide 3, second slide block 12 of load carrier 1 and the second guide groove 31 of the second guide 3 cooperatively interact, and the first guide groove 21 of the first slide block 11 and the first guide 2 cooperatively interacts, thus makes load carrier 1 be elevated simultaneously.Wherein, cooperatively interact between the first guide 2 and the second guide 3, thus determine the track of the dipping and heaving of load carrier.

Preferably, described second guide 3 is two, lays respectively at the both sides of described load carrier 1.In order to more stably lead to load carrier 1, described second guide 3 is at least one, and in the preferred embodiment, this second guide 3 is for laying respectively at two of load carrier 1 both sides.

Preferably, described steering unit is Rocker arm 4, and this rocking arm is rotatably fixed on described pedestal.This Rocker arm 4 is connected with the second guide 3, and therefore the second guide 3 moves along with the rotary motion of Rocker arm 4.

Preferably, described steering unit comprises two Rocker arm 4s be rotatably fixed on described pedestal, and described two Rocker arm 4s are arranged at the both sides of described load carrier respectively and are connected with two described second guides 3.For the embodiment with two the second guides 3, preferably adopt the embodiment of two Rocker arm 4s, two rocking arms are connected with two the second guides 3 respectively.

Steering unit of the present invention can adopt any applicable form, the form of Rocker arm 4 is adopted to be because the lever construction of Rocker arm 4 is comparatively laborsaving in a preferred embodiment, and usually when jacking system of the present invention is used for heavier controlled object, directly utilize the operation such as handle or handle to compare effort, therefore preferably adopt the Rocker arm 4 of lever construction.

Preferably, described two Rocker arm 4s are linked together by connecting rod 5, and described Rocker arm 4 to be fixed on described pedestal by described connecting rod 5 and to rotate around described connecting rod 5.Such two Rocker arm 4s connect into an entirety, and are rotatably fixed on vehicle frame by connecting rod 5, thus can carry out synchronous control to the second guide 3.

Preferably, described second guide groove 31 is form of straight lines, and the extended line of the line of centers of described second guide groove 31 is by the rotation axis of described Rocker arm 4.

According to preferred implementation mentioned above, first guide groove 21 of the first guide 2 determines the path of motion of load carrier, such as when the first guide 2 the first guide groove 21 vertically time, the path of motion of load carrier is defined as vertically, horizontal throw between such first slide block 11 and the second slide block 12 remains constant in whole dipping and heaving process, because the first guide groove 21 is also vertically, in other words in the process of dipping and heaving, all the time have at least the distance between a point with the first guide groove 21 to keep in second guide groove 31 and distance between the first slide block 11 and the second slide block 12 consistent, so described second guide groove 31 is usually along approximate horizontal direction, namely in the horizontal direction or with horizontal direction there is the direction at certain inclination angle, usually, second guide groove 3 is form of straight lines, the extended line of its line of centers should by the rotation axis of described Rocker arm 4 as shown in Figure 1.

Preferably, at least one in described two Rocker arm 4s has handle 6.It is conveniently manual handlings that Rocker arm 4 arranges handle 6, and is linked together by connecting rod 5 due to two Rocker arm 4s, therefore at least arranges a handle 6 and namely can control.

It should be noted that, steering unit of the present invention take Rocker arm 4 as preferred implementation, this with adopt shake hands or other steering units such as handle embodiment unlike, Rocker arm 4 needs rotate around a S. A. be fixed on pedestal.In preferred implementation shown in Fig. 1 to Fig. 3, provide a kind of Rocker arm 4 that makes and be rotatably fixed on preferred implementation on pedestal, for the embodiment that two Rocker arm 4s are connected as one by connecting rod 5, two ends are adopted to be for Rocker arm 4 and/or connecting rod 5 are fixed on pedestal by the swinging strut of curve in the middle of flat part, wherein flat part and pedestal are fixed, described Rocker arm 4 and/or connecting rod 5 hold and are limited in curve, and such Rocker arm 4 is just rotatably fixed on pedestal.

Preferably, described jacking system can be fixed on described primary importance.Primary importance is the concealed location that described controlled object is accommodated in pedestal, and being accommodated in this position is the common state of controlled object, and only just jacking system can be moved to the second place when safeguarding controlled object or change.Therefore, when jacking system is positioned at primary importance at ordinary times, need to be fixed to prevent jacking system due to unstable and move to the second place and be damaged and even cause more seriously problem to it.

Preferably, described second guide 3 removably can be connected with described pedestal in described primary importance.As shown in Figure 1, the lower end of the second guide 3 is formed with the connecting portion of plane, this connecting portion is connected with Rocker arm 4, this connecting portion can also have and can be connected with pedestal and the fastener fixed, on this connecting portion, be such as formed with the hole can passing bolt or other fasteners, pedestal is formed with the hole corresponding with this hole, utilizes the fasteners such as bolt and nut through the hole on connecting portion and pedestal, thus the second guide 3 is fixed together with pedestal.

Preferably, described jacking system is the storage battery jacking system for automobile, and described pedestal is vehicle frame or vehicle body, and described controlled object is storage battery.

Preferably, described load carrier 1 is body structure.Storage battery can be placed in this load carrier like this.Certainly, load carrier 1 of the present invention is not limited to this, and any applicable structure with in the present embodiment, can repeat no more herein.

Below the preferred embodiment of the present invention is described in detail by reference to the accompanying drawings; but; the present invention is not limited to the detail in above-mentioned embodiment; within the scope of technical conceive of the present invention; can carry out multiple simple variant to technical scheme of the present invention, these simple variant all belong to protection scope of the present invention.

It should be noted that in addition, each concrete technical characteristic described in above-mentioned detailed description of the invention, in reconcilable situation, can be combined by any suitable mode, in order to avoid unnecessary repetition, the present invention illustrates no longer separately to various possible array mode.

In addition, also can carry out combination in any between various different embodiment of the present invention, as long as it is without prejudice to thought of the present invention, it should be considered as content disclosed in this invention equally.

Claims (10)

1. a jacking system, this jacking system is arranged on pedestal, for being elevated controlled object, it is characterized in that, this jacking system comprises steering unit, guiding mechanism and load carrier,

Described steering unit is used for controlling described load carrier and is elevated between the first position and the second position;

Described guiding mechanism is elevated between described primary importance and the second place for guiding described load carrier;

Described load carrier (1) is for carrying described controlled object;

Wherein, described primary importance is the concealed location that described controlled object is accommodated in pedestal, and the described second place is the release position that described controlled object is exposed to outside pedestal,

Described guiding mechanism comprises the first guide (2) be connected with described pedestal, this first guide (2) has the first guide groove (21), described load carrier (1) has first slide block (11) that can slide in described first guide groove (21), described load carrier (1) is elevated between described primary importance and the second place by the slip of described first slide block (11) relative to described first guide groove (21)

Described guiding mechanism also comprises the second guide (3) be connected with described steering unit, this second guide (3) has the second guide groove (31), described load carrier (1) has second slide block (12) that can slide in described second guide groove (31), described load carrier (1) is elevated between described primary importance and the second place by the slip of described second slide block (12) relative to described second guide groove (31)

Described steering unit is rocking arm (4), and this rocking arm is rotatably fixed on described pedestal,

First guide groove (21) of described first guide (2) determines the path of motion of load carrier, described second guide groove (31) is form of straight lines, and the extended line of the line of centers of described second guide groove (31) passes through the rotation axis of described rocking arm (4).

2. jacking system according to claim 1, is characterized in that, described first guide groove (21) vertically extends.

3. jacking system according to claim 1 and 2, is characterized in that, described first guide (2) is two, lays respectively at the both sides of described load carrier (1).

4. jacking system according to claim 1, is characterized in that, described second guide (3) is two, lays respectively at the both sides of described load carrier (1).

5. jacking system according to claim 4, it is characterized in that, described steering unit comprises two rocking arms (4) be rotatably fixed on described pedestal, and described two rocking arms (4) are arranged at the both sides of described load carrier respectively and are connected with two described second guides (3).

6. jacking system according to claim 5, it is characterized in that, described two rocking arms (4) are linked together by connecting rod (5), and described rocking arm (4) to be fixed on described pedestal by described connecting rod (5) and to rotate around described connecting rod (5).

7. the jacking system according to claim 5 or 6, is characterized in that, at least one in described two rocking arms (4) has handle (6).

8. the jacking system according to claim 1 or 4, is characterized in that, described load carrier can be fixed on described primary importance.

9. jacking system according to claim 8, is characterized in that, described second guide (3) removably can be connected with described pedestal in described primary importance.

10. jacking system according to claim 1, is characterized in that, described jacking system is the storage battery jacking system for automobile, and described pedestal is vehicle frame or vehicle body, and described controlled object is storage battery.